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Volume 17, Issue 2, Pages (August 2009)

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1 Volume 17, Issue 2, Pages 244-256 (August 2009)
Phosphorylation-Dependent Protein Interactions at the Spindle Midzone Mediate Cell Cycle Regulation of Spindle Elongation  Anton Khmelinskii, Johanna Roostalu, Helio Roque, Claude Antony, Elmar Schiebel  Developmental Cell  Volume 17, Issue 2, Pages (August 2009) DOI: /j.devcel Copyright © 2009 Elsevier Inc. Terms and Conditions

2 Figure 1 Failure to Phosphorylate Ase1 Causes Metaphase Spindle Elongation and Collapse (A) Ase1 is dephosphorylated at the onset of anaphase. ASE1-6HA GAL1-CDC20 cells were arrested in metaphase by depletion of Cdc20 and released into anaphase by Cdc20 induction (t = 0). Protein levels were analyzed by immunoblotting. Asynchronous (log) and G1-arrested cell extracts are shown for comparison. Cells were scored for anaphase DNA segregation (filled circles) and rebudding (empty squares) (n > 100 cells per time point). (B) Domain architecture of Ase1 with full consensus Cdk1 phosphorylation sites. Coiled-coils are in dark gray. (C) Ase17A causes spindle elongation and collapse during metaphase arrest. ASE1, ASE17A, and ASE17D cells expressing GFP-TUB1 and GAL1-CDC20 were synchronized in G1 and analyzed by time-lapse microscopy 2 hr after release into a metaphase block. Scale bar: 5 μm. (D) Failure to phosphorylate Ase1 results in abnormal spindle behavior. The GFP-TUB1 ASE17A strain was analyzed by time-lapse microscopy. Scale bar: 2 μm. (E) Bending of iMTs in metaphase-arrested ASE17A cells. GAL1-CDC20 cells with ASE17A NUF2-eqFP GFP-TUB1 or ASE17A-GFP SPC42-eqFP were analyzed by time-lapse microscopy in metaphase block as in (C). Scale bar: 2 μm. (F) KIP1 deletion rescues ASE17A metaphase spindle defects. GFP-TUB1 GAL1-CDC20 cells in ASE17A, ASE17A kip1Δ, and ASE17A kip2Δ backgrounds were analyzed by time-lapse microscopy as in (C), and spindle extension/collapse events were scored for 90 min. Bipolar spindle assembly was scored after release from G1 arrest (n > 100 cells per time point). Developmental Cell  , DOI: ( /j.devcel ) Copyright © 2009 Elsevier Inc. Terms and Conditions

3 Figure 2 Failure to Dephosphorylate Ase1 Uncouples Polymerization of iMTs from Sliding (A) Impaired spindle elongation and midzone extension in ASE17D anaphase. Cells expressing SPC42-eqFP in ASE1-GFP, ASE17A-GFP or ASE17D-GFP background were analyzed by time-lapse microscopy. Corresponding measurements of pole-to-pole distance (red circles) and GFP region length (green squares) are shown. Asterisks on the ASE17D movie sequence and plot mark the same time point. Scale bar: 2 μm. (B) Quantification of (A). Midzone extension (increase in midzone length during anaphase), spindle elongation (increase in spindle length during anaphase), and anaphase duration (time from start of spindle elongation until spindle collapse) were measured for each cell (n = 16, 30, and 16 cells for ASE1, ASE17D, and ASE17A, respectively). Box-and-whiskers plots: boxes extend from the 25 to the 75 percentile, with a line at the median; whiskers extend to the most extreme values. Statistically significant differences between the wild-type and mutants of ASE1 are marked with asterisks. (C) Ase17D marks the extending midzone. SPC42-eqFP BIM1-eqFP cells expressing ASE1-GFP or ASE17D-GFP were analyzed by time-lapse microscopy. Scale bars: 2 μm. (D) Ase1 rephosphorylation during MEN arrest decreases spindle elongation and causes midzone extension. Cells with cdc15-as mCherry-TUB1 SPC42-GFP in ASE1-GFP or ASE17A-GFP background were synchronized in G1, released into an anaphase block by inhibition of Cdc15-as1, and followed by time-lapse microscopy. The GFP channel is shown. Scale bar: 2 μm. (E) Spindle elongation, midzone extension, and corrected spindle elongation (the sum of the latter two quantities) were measured 25 min after the start of anaphase for the cells in (D) (n = 28 and 31 for ASE1-GFP strain without and with the inhibitor). Developmental Cell  , DOI: ( /j.devcel ) Copyright © 2009 Elsevier Inc. Terms and Conditions

4 Figure 3 The Dynamics of iMTs Is Independent of the Phosphorylation State of Ase1 ASE1, ASE17A, and ASE17D cells expressing GFP-TUB1 were examined as indicated in the cartoon. The time between bleaching and splitting of the bleach mark was measured (n = 9, 11, and 9 for ASE1, ASE17D, and ASE17A, respectively). Scale bar: 2 μm. Developmental Cell  , DOI: ( /j.devcel ) Copyright © 2009 Elsevier Inc. Terms and Conditions

5 Figure 4 Phosphorylation Does Not Significantly Affect the MT-Bundling Activity of Ase1 (A) Coomassie-stained SDS-PAGE gel and size-exclusion chromatography profiles of purified Ase1, Ase17A, and Ase17D proteins. Arrowheads mark the elution volumes of the markers (thyroglobulin, aldolase, conalbumin, and chymotrypsinogen A: Stokes radii of 8.5, 4.8, 4.04, and 2.1 nm respectively). (B) Purified Ase1, Ase17A, and Ase17D bundle MTs. Shown are fluorescence microscopy images of Cy3-labeled MTs incubated with Ase1 mutants. Scale bar: 10 μm. (C) Models of wild-type ASE1 and mutant ASE17D anaphase spindles examined by electron tomography. SPBs (yellow) and individual MTs from each SPB (red and green, respectively) are shown. Blue caps, MT plus ends; white arrowheads, edges of the antiparallel overlap regions. MT packing is illustrated for the indicated regions. Scale bar: 500 nm. (D) Electron tomography midzone measurements agree with fluorescence microscopy data. Normalized midzone length (midzone length divided by spindle length) values are indicated by open circles for ASE1 and by filled black circles for ASE17D reconstructions. Fluorescence microscopy midzone measurements with GFP-tagged Ase1 or Ase17D proteins (n = 131 and 110 cells, respectively) are shown as the red (moving average) and gray curves (one SD away from the moving average). (E) NDA of antiparallel iMTs for the reconstructed ASE1 and ASE17D spindles. Inset shows an example of iMT packing with interMT distances corresponding to the main peaks. Developmental Cell  , DOI: ( /j.devcel ) Copyright © 2009 Elsevier Inc. Terms and Conditions

6 Figure 5 Dephosphorylated Ase1 Recruits Cin8 to the Midzone to Promote Spindle Elongation (A) Cin8 localizes prematurely to iMTs in ASE17A metaphase spindles. ASE1, ASE17A, and ASE17D cells expressing CIN8-GFP and GAL1-CDC20 were analyzed by time-lapse microscopy during metaphase arrest. Indicated is the percentage of cells with depicted phenotypes. Scale bar: 2 μm. (B) Anaphase localization of Cin8 depends on the phosphorylation state of Ase1. ASE1, ASE17A, and ASE17D cells expressing CIN8-GFP were analyzed by time-lapse microscopy. Scale bar: 5 μm. (C) Dephosphorylation of Ase1 is sufficient for correct anaphase localization of Cin8. Cells with cdc15-as mCherry-TUB1 CIN8-GFP in ASE1, ASE1 spo12Δ, and ASE17A spo12Δ backgrounds were analyzed by time-lapse microscopy upon release from G1 arrest and Cdc15-as inhibition, as indicated. The GFP channel is shown. Scale bar: 2 μm. (D) Cin8 is responsible for abnormal spindle elongation in the ASE17A mutant. Elongation kinetics of anaphase spindles marked with GFP-Tub1 was analyzed by time-lapse microscopy (11–15 cells per strain). Indicated p values correspond to the statistically significant differences between the motor deletions (asterisks) and the respective wild-types. Spindle elongation kinetics in ASE1 cin8Δ and ASE17A cin8Δ mutants is not significantly different (∗p > 0.2 for the first phase, ∗p > 0.6 for the second phase). (E) Cin8 overexpression rescues spindle elongation defects in ASE17D background. Two extra copies of CIN8 under native promoter were used for overexpression. Strains were analyzed as in (D) (n = 10 and 15 cells, respectively). Developmental Cell  , DOI: ( /j.devcel ) Copyright © 2009 Elsevier Inc. Terms and Conditions

7 Figure 6 Cin8 Binds Directly to Ase1 at the Midzone
(A) Ase1 and Cin8 interact in pull-down. Immobilized Ase1-SNAP was incubated with whole-cell extract of yeast expressing CIN8-TAP. (B) Ase1 and Cin8 interact directly. Immobilized Ase1-SNAP was incubated with purified Cin8-mEGFP or GFP alone as indicated. (C) FRAP analysis of Cin8 turnover on anaphase spindles. Examples of typical bleached regions are indicated in red. Average recovery curves fitted with a single exponential are shown. Scale bar: 2 μm. (D) Cin8 turnover at the midzone is not affected by Ase1 phosphorylation. FRAP analysis of Cin8 turnover on intermediate anaphase spindles in cells of the indicated genotypes (wild-type ASE1 as in [C]). (E) Ase1 is stably bound to the midzone. FRAP analysis of Ase1 turnover at the midzone. Scale bar: 2 μm. Developmental Cell  , DOI: ( /j.devcel ) Copyright © 2009 Elsevier Inc. Terms and Conditions


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